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E-raamat: Path to Green Concrete

Edited by (Technical University of Lisbon, Portugal), Edited by (Full Professor, Dept. of Rural Engineering (Construction Eng. Area), Universidad de Córdoba, Cordoba, Spain), Edited by (Civil Engineering Research and Innovation for Sustainability (CERIS), Instituto)
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The Path to Green Concrete will enlighten the scientific community on recent developments in this field. Within this volume, world-renowned experts summarize recent research findings covering key topics such as: alkali-activated materials using aluminosilicate waste precursors; use of novel cost-effective and eco-efficient supplementary cementitious materials; state of the art characterization techniques and assessment methodologies; advances on the use of biomass ashes, steel slags and waste glass; the role of carbon capture in the production of concrete and mortar; development of eco-efficient composites for specialized applications; recycling of the fine fraction of construction and demolition wastes; and sustainable self-healing concrete. This book will be a valuable reference resource for academic and industrial researchers, civil and structural engineers, manufacturers, and other construction professionals working in the development of sustainable construction materials.

Section 1 - Advances on eco-efficient supplementary cementitious materials
1. Limestone calcined clay
2. Biomass ashes
3. Reactive magnesia
4. Stainless Steel Slag
5. Agricultural waste Section 2 - Alkali-activated waste precursors
6. Alkali activation of industrial wastes
7. Alkali activation of slags
8. Hybrid binders
9. Alkali activation of municipal solid waste incinerator bottom ashes Section 3 - Specific and advanced recycled concrete
10. Ultra-high-performance concrete
11. Self-healing concrete
12. Cellular concrete
13. Graphene in eco-efficient concrete
14. Pervious concrete with alternative materials Section 4 - Construction and industrial wastes as aggregates in cementitious composites
15. Steel slag aggregate in concrete
16. Long-term performance of fibre-reinforced recycled aggregate concrete
17. Mining waste as aggregate for concrete Section 5 - New techniques and characterization methods for eco-efficient composites
18. Novel treatment processes to recycled aggregates
19. Microtomography of eco-efficient concrete
20. Nano-indentation of eco-efficient concrete
21. 3D printing concrete with waste

Jorge de Brito is Professor in the Department of Civil Engineering, Architecture and Georesources at the Instituto Superior Técnico, Technical University of Lisbon, Portugal. He was Head of the ICIST Research Centre from 2009 to 2012. Francisco Agrela is a Full Professor of Civil and Agricultural Engineering at the University of Cordoba, Spain, where he also obtained his PhD in 2003. He is a prolific author of research papers, book chapters, and conferences proceedings. In the last ten years, he has participated as Principal Investigator in more than 40 R+D+i projects related to real-scale applications of waste management and recycled materials. He collaborates with several Elsevier journals as a reviewer, notably Construction and Building Materials, Waste Management, Materials and Design, Resources, Conservation and Recycling, etc., and he is also on the Editorial Board of Materials (MDPI).

Rui Vasco Silva is a lecturer in the Department of Civil Engineering, Architecture and Georesources at IST, University of Lisbon, Portugal. He completed his PhD on the use of recycled aggregates derived from construction, demolition, and excavation waste in the production of structural concrete. He is a member of the CERIS Research and Development Unit, hosted by IST-ID, and an honorary member of the CIB Student Chapter at IST. He has notable experience in FCT-funded Research Projects and is currently Managing Director of the Rinopolycrete project PTDC/ECI-CON/29196/2017 and is Principal Investigator of the upcoming research project ECO2Alkrete. He is the author of several publications concerning sustainable construction and is currently researching other approaches that can further decrease the environmental impact of concrete, namely reactive magnesium oxide, alkali-activated materials, municipal solid waste incinerator bottom ashes and electric arc furnace slag.
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Püsilink: https://www.kriso.ee/db/97804431916642e.html